Eyeglasses-free display

Huang, Fu-Chung; Wetzstein, Gordon; Barsky, Brian A.; Raskar, Ramesh

doi:10.1145/2601097.2601122

Cited by 70 publications

(11 citation statements)

References 34 publications

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“…Other methods for reducing vergence-accommodation conflict (VAC) in VR NEDs have also been suggested, including mono-vision and the use of focus-tunable lenses ( 59 ). By distorting the image displayed, Huang et al ( 60 ) showed that correction for refractive defects may be encoded into a light field display, doing away with the need for glasses. In Chakravarthula et al ( 61 ), depth perception, peripheral awareness, eye tracking, scanning, and visual processing speed are all implemented in a simulated real-space environment to maximize the effect of the training and to create a good transference potential to real-world dynamic environment scenarios ( 62 ).…”

Section: Vr Exercises For Prevention and Control Of Human Ocular Dise...mentioning

confidence: 99%

A systematic review: Virtual-reality-based techniques for human exercises and health improvement

Ali

Wang

et al. 2023

Front. Public Health

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Virtual Reality (VR) has emerged as a new safe and efficient tool for the rehabilitation of many childhood and adulthood illnesses. VR-based therapies have the potential to improve both motor and functional skills in a wide range of age groups through cortical reorganization and the activation of various neuronal connections. Recently, the potential for using serious VR-based games that combine perceptual learning and dichoptic stimulation has been explored for the rehabilitation of ophthalmological and neurological disorders. In ophthalmology, several clinical studies have demonstrated the ability to use VR training to enhance stereopsis, contrast sensitivity, and visual acuity. The use of VR technology provides a significant advantage in training each eye individually without requiring occlusion or penalty. In neurological disorders, the majority of patients undergo recurrent episodes (relapses) of neurological impairment, however, in a few cases (60–80%), the illness progresses over time and becomes chronic, consequential in cumulated motor disability and cognitive deficits. Current research on memory restoration has been spurred by theories about brain plasticity and findings concerning the nervous system's capacity to reconstruct cellular synapses as a result of interaction with enriched environments. Therefore, the use of VR training can play an important role in the improvement of cognitive function and motor disability. Although there are several reviews in the community employing relevant Artificial Intelligence in healthcare, VR has not yet been thoroughly examined in this regard. In this systematic review, we examine the key ideas of VR-based training for prevention and control measurements in ocular diseases such as Myopia, Amblyopia, Presbyopia, and Age-related Macular Degeneration (AMD), and neurological disorders such as Alzheimer, Multiple Sclerosis (MS) Epilepsy and Autism spectrum disorder. This review highlights the fundamentals of VR technologies regarding their clinical research in healthcare. Moreover, these findings will raise community awareness of using VR training and help researchers to learn new techniques to prevent and cure different diseases. We further discuss the current challenges of using VR devices, as well as the future prospects of human training.

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Section: Vr Exercises For Prevention and Control Of Human Ocular Dise...mentioning

confidence: 99%

A systematic review: Virtual-reality-based techniques for human exercises and health improvement

Ali

Wang

et al. 2023

Front. Public Health

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“…Light-field displays have also been proposed as an alternative to overcome the limitations of single-image solutions, whereby a microlens array is placed on top of the display to provide a higher degree of control over the directionality of the emitted light. Vision correction can be achieved using such displays [93][94][95] by utilizing vision simulations to prefilter the displayed images.…”

Section: Vision-correcting Devicesmentioning

confidence: 99%

Rendering algorithms for aberrated human vision simulation

Csoba

Kunkli

2023

Vis. Comput. Ind. Biomed. Art

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Vision-simulated imagery―the process of generating images that mimic the human visual system―is a valuable tool with a wide spectrum of possible applications, including visual acuity measurements, personalized planning of corrective lenses and surgeries, vision-correcting displays, vision-related hardware development, and extended reality discomfort reduction. A critical property of human vision is that it is imperfect because of the highly influential wavefront aberrations that vary from person to person. This study provides an overview of the existing computational image generation techniques that properly simulate human vision in the presence of wavefront aberrations. These algorithms typically apply ray tracing with a detailed description of the simulated eye or utilize the point-spread function of the eye to perform convolution on the input image. Based on the description of the vision simulation techniques, several of their characteristic features have been evaluated and some potential application areas and research directions have been outlined.

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“…Perhaps one of the most unconventional applications of light-field displays is the assessment 17 and correction 18 of visual aberrations in a human observer (see Fig. 4).…”

Section: Assessing and Enhancing Human Visionmentioning

confidence: 99%

“…Ignoring stereo cues and motion parallax, however, allows for practical light-field displays to be built that support only focus cues. 17,18 To assess visual aberrations, a light field containing a pair of lines can be presented to an observer such that the retinal projections exactly overlap when the viewer has normal or corrected vision but appear at spatially distinct locations when that is not the case. By interactively aligning the lines, one can manually pre-distort the light field until the pre-distortions are canceled out by the refractive errors of the eye.…”

Section: Assessing and Enhancing Human Visionmentioning

confidence: 99%